Artículos proteínas fluorescentes

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  • Shaner, et al. (2007) Advances in fluorescent protein technology. Journal of Cell Science. 120, 4247-4260.
  • Olenych, et al. (2007). The fluorescence protein color palette. Current Protocols in Cell Biology. Supl. 33. Unit 21.5
  • G. H. Patterson (2008). Photoactivation and Imaging of Photoactivatable Fluorescent Proteins. Curr. Protocols in Cell Biol. Unit. 21.6.
  • T. Kerppola. (2008) Bimolecular Fluorescence Complementation (BiFC) Analysis as a Probe of Protein Interactions in Living Cells. Annual Review of Biophysics. 37, 465-487.
  • Alieva, et al. (2008) Diversity and evolution of coral Fluorescent Proteins. PLoS ONE. 16, 3(7):e2680.
  • Fluorescent Proteins. (2008). Methods in Cell Biology. 85.
  • Jin Zhang (2009). The Colorful Journey of Green Fluorescent Protein. ACS Chem. Biol. 4, 85–88.
  • Davidson and Campbell. (2009). Engineered fluorescent proteins: innovations and applications. Nature Methods. 6, 713-717.
  • J. Lippincott-Schwartz and G. H. Patterson (2009). Photoactivatable fluorescent proteins for diffraction-limited and super-resolution imaging. Trends in Cell Biology. 19, 555-565.
  • E. L. Snapp. (2009). Fluorescent proteins: a cell biologist's user guide. Trends in Cell Biology. 19, 649-655.
  • Piatkevich and Verkhusha. (2010). Advances in engineering of fluorescent proteins and photoactivatable proteins with red emission. Current Opinion in Chemical Biology. 14, 23-29.
  • Maurel, et al. (2010). Photoactivatable and Photoconvertible Fluorescent Probes for Protein Labeling. ACS Chem. Biol. 5, 507–516.
  • Mathur, et al. (2010). mEOSFP-Based Green-to-Red Photoconvertible Subcellular Probes for Plants.Plant Physiology vol.154 no. 4 1573-1587
  • Fuchs, et al. (2010). A photoactivatable marker protein for pulse-chase imaging with superresolution. Nature Methods. 7, 627–630.
  • Kaddoum, et al. (2010). One-step split GFP staining for sensitive protein detection and localization in mammalian cells. Biotechniques. 49, 727-736.
  • Kosama and Hu. (2010). An improved bimolecular fluorescence complementation assay with a high signal-to-noise ratio. BioTechniques. 5, 793–805.
  • Lin, et al. (2010). Fluorescent proteins illuminate cell biology. Nature Reviews Molecular Cell Biology.
  • Shcherbo, et al. (2010). Near-infrared fluorescente proteins. Nature Methods. 7, 827–829.
  • Chudakov, et al. (2010). Fluorescent proteins and their applications in imaging living cells and tissues. Physiological Reviews. 90, 1103-1163.
  • Zhao et al. (2011). An expanded palette of genetically enconded Ca2+ indicators. Science. 333, 1888-1891.
  • Vaughan and Zhuang. (2011). New fluorescent probes for super-resolution imaging. Nature Biotechnology. 29, 880-881.
  • Miyawaki, A. (2011). Proteins on the move: insights gain from fluorescent protein technologies. Nature Reviews Molecular Cell Biology. 12, 658-668.
  • Olesya, et al. (2011). Modern fluorescent proteins: from chromophore formation to novel intracellular applicatiions. Biotechniques. 51, 313-327.
  • Markwardt, et al. (2011). An improved cerulean fluorescent protein with enhanced brightness and reduced reversible photoswitching. PLoS One 6:e17896
  • Brakeman et al(2011). A reversibly photoswitchable GFP-like protein with fluorescence excitation decoupled from switching. Nature Biotechnology 29, 942–947.
  • Wu. et al. (2011). Assessing the Utility of Photoswitchable Fluorescent Proteins for Tracking Intercellular Protein Movement in the Arabidopsis Root. PLoS ONE 6(11): e27536.
  • Caussinus et al. (2012). Fluorescent fusion protein knockout mediated by anti-GFP nanobody. Nature Structural & Molecular Biology 19, 117–121.
  • Kodama and Hu. (2012). Bimolecular fluorescence complementation (BiFC): a 5-year update and future prespectives. BioTechniques. 53, 285-298.
  • Shcherbakova and Verkhusha. (2013). Near-infrared fluorescent proteins for multicolor in vivo imaging. Nature Methods. 10, 751-754.